Service core installation system

ABSTRACT

In a dwelling construction system, a multi-story, multi-family building comprises prestressed concrete pallets which are supported between load bearing walls to form the floors and the ceilings of individual dwellings. Each dwelling includes a service core comprising an enclosure formed on one of the pallets and complete mechanicals for the dwelling. The service cores are fabricated by mass production techniques and are subsequently transported to the building site for installation. In some instances the service core comprises a complete dwelling, in which case the enclosure of the service core may form the exterior walls and the roof of the dwelling.

United States Patent 91 McCrillis et a1.

11] 3,831,327 1 Aug. 27, 1974 1 1 SERVICE CORE INSTALLATION SYSTEM [73] Assignee: Marcor Housing Systems,

Incorporated, Denver, C010.

[22] Filed: Mar. 1, 1972 [21] Appl. No.: 230,832

[52] US. Cl 52/79, 52/126, 52/745 [51] Int. Cl E04b l/35 [58] Field of Search 52/79, 122, 126, 236, 745,

[56] References Cited UNITED STATES PATENTS 2,722,040 1 H1955 Ludowici 52/745 3,616,592 11/1971 Rothman 52/745 FOREIGN PATENTS OR APPLlCATlONS 1.209.160 10/1970 Great Britain 52/79 1,138,751 2/1957 France 52/262 Primary Examiner-John E. Murtagh Attorney, Agent, or Firml-1ubbard, Thurman, Turner & Tucker [5 7] ABSTRACT In a dwelling construction system, a multi-story, multifamily building comprises prestressed concrete pallets which are supported between load bearing walls to form the floors and the ceilings of individual dwellings. Each dwelling includes a service core comprising an enclosure formed on one of the pallets and complete mechanicals for the dwelling. The service cores are fabricated by mass production techniques and are subsequently transported to the building site for installation. In some instances the service core comprises a complete dwelling, in which case the enclosure of the service core may form the exterior walls and the roof of the dwelling.

9 Claims, 13 Drawing Figures PAIENIEmusznsn SEE! 101 5 mammmzmu SHEHBUFS FIG. 7

PAIENTED M1827 1974 SE n u 5 PAIENTEDMEZHW saw so; 5 3.831.327

SERVICE CORE INSTALLATION SYSTEM BACKGROUND AND SUMMARY OF THE INVENTION This invention relates to dwelling construction sys-' tems, and more particularly relates to a system for fabricating a wide range of dwelling types using production line techniques.

Very substantial sums of money have been expended over the last decade or two to develop building systems which use production line techniques in the construction of both single family and multi-family dwellings. The basic considerations fueling this activity are rapidly increasing labor costs of tradesmen, and the hope that use of production line manufacturing procedures would reduce or eliminate the need for the highly skilled labor of tradesmen as well as provide other cost savings.

This type of construction is particularly promising in the case of dwellings to beerected at remote or relatively inaccessible building sites where labor and materials are not readily accessible.

To date the most successful adaptation of production line techniques to dwelling construction has been in the mobile home industry. As is well known, the fabrication of a trailer house, including the installation of mechanicals such as kitchen, bathroom, and temperature control facilities, is typically carried out to completion at a factory. By this means the labor required to install such a dwelling at a particular site is reduced to an absolute minimum.

A different but related method of adapting mass production to dwelling construction comprises sectionalized houses. Typically half or quarter house sections are fabricated at a factory using conventional building materials and techniques and are transported to a construction site by truck. At the site the sectionsare positioned adjacent one another and are joined to form a completed house.

Multi-family dwelling units have also been constructed using production line techniques. By way of example, one construction system that has been used heretofore involves the fabrication of box-like modules each including a floor, walls and a ceiling which are interconnected to form a structurally integral and transportable unit. The finishing of the modules, including the installation of mechanicals, is completed at a factory. Thereafter the modules are transported to a construction site and are stacked in various configurations to form dwelling units. In this case, the interrelationship of the floor, walls and ceilings of each module cooperates to provide the structural integrity and load bearing capacity necessary to permit the modules to be transported and handled. This type of system has the inherent disadvantage of greatly limiting flexibility of Thus, structures such as bridges, parking garages, warehouses and the like are presently being fabricated from various prestressed components including load bearing and non-load bearing walls. columns, beams, and floor and roof decks. Heretfore prestressed members have been used solely as structural elements. This practice necessitates the use of labor at the construction site to perform such tasks as erecting interior partitions, installing mechanicals, etc.

The present invention comprises a novel dwelling construction system which incorporates many-of the advantages that are characteristic of prior art modular construction systems while eliminating substantially all of the disadvantages that have long been associated with such systems. In accordance with the broader aspects of the invention, a service core is substantially completely fabricated on an assembly line using mass production techniques. The service core is formed on a prestressed concrete pallet which is also fabricated at a plant site using automated equipment for greatest economy. The service core includes a mechanical enclosure which may be fabricated from conventional drywall building materials of the type used in building houses, and similar buildings. The mechanical enclosure may include complete mechanicals for at least one dwelling, i.e., complete kitchen facilities, complete bathroom facilities, complete temperature control equipment, and electrical systems including telephone and television wiring.

Upon completion, each service core is transported to a dwelling site. The concrete pallet provides the only structural integrity required, thus giving total flexibility in the design of the enclosures. In some instances the service core may comprise an entire dwelling. More often, however, each service core is employed in conjunction with additional prestressed concrete pallets to form a relatively large dwelling. In the latter case the pallets extend between and are supported by prestressed concrete load bearing walls to provide a clear span of substantial length. Additional combinations of service cores and pallets may also be supported on the load bearing walls to form garden apartments, high rise apartments, and the like.

In accordance with more specific aspects of the invention, the prestressed concrete pallets used in the service cores and used in conjunction with the service cores to construct dwellings each comprise a relatively thin deck, a plurality of integrally formed beams depending from the deck, and pretensioned members extending through the beams to prestress and maintain the concrete of the beams in compression such that the beams are adapted to span a substantial distance between two spaced load bearing points and still support large static and live loads on the deck. The deck may terminate at the load bearing points, in which case the deck is entirely enclosed by the load bearing walls. On the other hand, the beams may be cantilevered substantially beyond either of the load bearing points to support a deck portion located outside the load bearing walls to provide a balcony, an entry corridor, etc.

' ln the use of the present invention to construct a multi-family dwelling such as a garden apartment, a pair of load bearing wall panels are initially erected at points spaced in accordance with the positioning of the support points of the beams of the concrete pallets. After the load bearing walls panels are in place, a service core and then one or more additional pallets are set in place on the load bearing wall panels to form the floor of a first story dwelling. In the case of the first floor dwelling, the beams of the pallets may rest on members projecting inwardly from the load bearing wall panels. Non-load bearing shear wall panels interconnect the load bearing wall panels and serve the dual functions of enclosing the dwelling and maintaining the load bearing wall panels erect.

A service core and then additional pallets which form the ceiling of the first floor dwelling and the floor for a second story dwelling are set in place on the top edges of the load bearing walls of the first floor unit. The beams of the pallets of the second dwelling are preferably received in notches formed in the upper ends of load bearing wall panels that enclose the lowermost dwelling. Also, the decks of the pallets forming the floor of the second dwelling preferably either end at or are interrupted at points corresponding to the positioning of the load bearing wall panels. This permits mounting a second pair of load bearing wall panels directly on the first pair of load bearing wall panels to form the walls for the second floor dwelling.

When the second set of pallets are in place, a second pair of load bearing wall panels and a second pair of shear wall panels are installed. Then a third set of pallets including a service core for a third dwelling are mounted on the second pair of load bearing wall panels to form a ceiling for the second floor dwelling and the floor for a third dwelling. This procedure is repeated until all of the dwellings in the apartment are formed. Then prestressed concrete pallets are mounted on the uppermost load bearing wall panels to form the roof of the uppermost dwelling, and of the stack of dwellings. The interiors of the several dwellings are then grouted, and floor and wall coverings installed, whereupon the structure is ready for occupancy.

As will be appreciated by those skilled in the art, pre stressed concrete pallets of the type employed in the practice of the present invention can be supported only at the two design load bearing points. In most instances, the blank pallets are handled by means of eyes cast in the concretejHowever, the pallets upon which the service core is formed make this method of handling the pallets impractical. Accordingly, each service core is set in place by means of a pair of picking bars which extend under the support points of the beams of the pallet, a harness including members for connection to the opposite ends of the two picking bars, and a crane which operates through the harness and thepicking bars to lift and position the pallet. On the other hand, both for fire prevention purposes and for the sake of appearance, it is highly desirable that the enclosure of each service core extend substantially into engagement with the pallet, located next about the service core. To this end the enclosure of each service core is equipped with at least on picking bar slot positioned to permit withdrawal of one of the picking bars that will be used to install the service core or pallet above the service core. The picking bars used in the installation of the pallets weigh approximately 400 pounds. This necessitates reinforcing the picking bar slots to such an extent that the picking bar does not damage the service core as it is withdrawn.

The building codes of the various cities and states typically require a fire barrier having a one hour rating between adjacent dwellings in a multi-family dwelling. In the practice of the present invention this requirement is easily fulfilled with respect to pallets that do not comprise service cores by simply filling the spaces between the decks of the pallets and the load bearing wall panels and the shear wall panels with grouting. On the other hand, the enclosures of the service cores prevent access to these spaces and thereby prevent the filling of the spaces with grouting. For this reason the service cores are preferably installed with one edge of the deck engaged with the adjacent wall panel. At the other end of the deck a strip of sheet metal is secured between the enclosure and the deck. The strip of sheet metal is extended over the upper edge of the load bearing wall panels that supports the deck and is engaged by the loading bearing wall panel that is mounted on the supporting panel to provide the necessary fire barrier.

In accordance with a particular embodiment of the invention, double loaded service cores are utilized in the construction of adjacent dwellings. That is, a single prestressed concrete pallet is equipped with two complete but separate sets of mechanicals, one for each of the adjacent dwellings. in such a case it is necessary to form a fire barrier having a one hour rating between the portion of the service core that is individual to one of the dwellings and the portion that is individual to the other dwelling.

The majority of the fire barrier for a double loaded core may comprise a wall including at least one layer of /8 inch sheet rock. A pair of diverging sheet metal flanges are provided at the upper end of this wall for engagement with a beam of the pallet that is installed above the double loaded core to form the upper portion of the fire barrier. The fire barrier wall is also pro vided with a stub wall which is slidably supported at the end of the deck that will be engaged with a load bearing wall. During installation of the double loaded core the stub wall is retracted. Then, after the load bearing wall panels adjacent the double loaded core have been installed, the stub wall is moved outwardly and is engaged with the adjacent load bearing wall panel. By this means the fire barrier between the portions of the double loaded core that are individual to the separate dwellings is extended to the full height and the full width of the core.

In addition to the foregoing, the present invention incorporates numerous features which contribute greatly to its overall practicality. For example, notwithstanding the strength of prestressed concrete pallets, it has been found that a direct connection between a particular pallet and the enclosure of a service core situated beneath the pallet is not workable. Instead a slip joint is employed to provide a pleasing appearance while permitting relative movement between the pallet and the service core as a result of live loads.

Another important feature of the invention involves the manner in which convenience outlets are provided at spaced points around each dwelling. Thus, electrical conduits are formed in the load bearing wall panels when the panels are manufactured. After the panels are installed, electric service lines are directed from the adjacent service cores through the conduits in the load bearing wall panels and along the shear wall panels. The shear wall panels are typically covered with wood panelling or the like, so that the resulting dwelling is equipped with suitable convenience outlets and yet has no exposed conduit or wiring.

Still another important feature of the invention involves an improved method of forming the enclosures of the service cores. It has been found that a great deal of time is wasted if the enclosures are formed by finishing the walls on one side, installing the walls on the pallet by fastening through the panel frame into the pallet, and then finishing the walls on the other side of the panel. In accordance with the present invention holesare formed in the pallets along the lines that will comprise the walls of the enclosures. This permits thewalls to be completely finished and then secured to the pallets by means of lag screws which are inserted through the holes in the pallets from the bottom.

DESCRIPTION OF THE DRAWINGS A more complete understanding of the invention may be had by referring to the following Detailed Description when taken in conjunction with the accompanying Drawings, wherein:

FIGS. l-7 are illustrations of progressive steps .in a method of fabricating dwelling units incorporating the invention;

FIGS. 8 and 9 are illustrations of prestressed concrete pallets utilized in the practice of the invention;

FIG. 10 is a view taken generally along the line 10-10 in FIG. 5 in the direction of the arrows;

FIGS. 11 and 12 are perspective and end views, respectively, showing a method of and apparatus for installing service cores which is utilized in the practice of the invention;

FIG. 12A is an end view of an alternative type of prestressed concrete pallet that can be utilized in the practice of the invention;

DETAILED DESCRIPTION Method of Dwelling Construction Referring now to the Drawings, and particularly to FIGS. l-7 thereof, a method of dwelling construction incorporating the present invention is employed to construct an apartment building 48. As is best shown in FIG. I, the first step in the method comprises the erection of a pair of load bearing wall panels 50 and 52. The wall panels 50 and 52 are both formed from prestressed concrete and are both nominally six inches thick. The wall panels 50 and 52 are further similar in that they are both provided with a plurality of slots or notches 54 formed in the upper ends and with a plurality of support members 56 which project inwardly from points adjacent their lower ends. The notches 54 are generally U-shaped, but comprise inwardly tapered side walls, and some of the notches 54' in the wall 50 extend only part way through the wall so as to provide a flush outer surface. The supporting members 56 may comprise any convenient construction, but preferably comprise pipe stubs cast into the panels 50 and 52 and extending inwardly therefrom. One difference between the wall panels 50 and 52 is that the wall panel 50 is provided with a door opening 58.

Referring now to FIG. 2, the next step in the method of dwelling construction comprises the installation of a service core 60. The service core 60 comprises a prestressed concrete pallet 62 and an enclosure 64formed on the pallet 62. The service core 60 further comprises complete mechanicals for a dwelling unit, i.e., complete kitchen facilities, completebathroom'facilities, and complete temperature control facilities.

The prestressed concrete pallet 62 of the service core 60 is shown in FIG. 8. The pallet 62 comprises a deck 66 and three beams 68 which depend from the deck 66.

Thus, the pallet 62 is of thetype commonly known as a triple T deck. A plurality of tension members 70 extend through each beam 68 of the pallet 62 and serve to prestress the beams, whereby the beams 68 are adapted for support at spaced points indicated by the arrows 72 to support a load on the deck 66. As is well known in the art, a prestressed concrete pallet of the type shown in FIG. 8 is subject to breakage unless it is properly supported.

The cross sectional configuration of the pallet 62 is shown in FIG. 12. Those skilled in the art will appreciate the fact that the invention may also be practiced using either solid core or hollow core prestressed concrete pallets 62' of the type shown in FIG. 12A. The pallet 62' comprises a deck 66' and a plurality of beams 68' which depend from the deck 66' between cylindrical passageways 69'. A plurality of tension members 70 extend through a lower portion 71'. One difference between the pallet 62 and the pallet 62' is that whereas the beams 68 of the pallet 62 are exposed, the bottom of the pallet 62 is flat.

Referring again to FIG. 2, the enclosure 64 of the service core is formed on the deck 66 of the prestressed concrete pallet 62. The enclosure 64 is preferably formed from materials of the type used in constructing conventional homes and similar buildings, i.e., two by four and two by six studs, drywall panels, and similar materials. The enclosure 64 includes interior partitions which separate the various mechanicals of the dwelling unit into kitchens, bathrooms, and the like, and further includes at least one end wall and a dropped or false ceiling 76.

In accordance with the illustrated embodiment of the invention, the service core 60 is completely fabricated at a factory by means of mass production techniques. The fabrication of the core 60 comprises construction of the walls, partitions, and ceilings in suitable jigs and fixtures, installation of the walls, partitions, and ceilings, installation of all mechanicals, installation of electrical, plumbing, and heating/air conditioning risers for the mechanicals, installation of all doors and cabinetry, installation of floor and wall coverings, and painting. Thus, when the service core 60 is installed between the load bearing wall panels 50 and 52, it is complete and ready for use. This feature of the invention is highly advantageous in that it not only reduces the cost of a dwelling by applying mass production techniques to the construction of the service core, but also reduces the time that is required to finish a dwelling following the beginning of construction at the dwelling site.

Upon completion of the manufacture of the service core 60 at the factory, it is transported to the site of the building 48 by truck. During such transportation, the service core 60 is supported solely at points corresponding to the support points of the beams. This is accomplished by means of members positioned under the support points of the beams to maintain the remainder of the pallet out of contact with the bed, etc. of the truck.

The service core 60 is installed by means of apparatus of the type shown in FIGS. 11 and 12. A pair of bars 78 to points above the enclosure 64 of the service core 60. The cables 82 are connected to a beam 86 which is in turn supported by a cable 88 extending from a crane (not shown). By this means the crane functions through the harness 80 and the picking bars 78 to lift and position the service core 60.

Referring again to FIG. .2, the service core 60 is in stalled between the load bearing wall panels 50 and 52 with each beam 68 of the pallet 62 engaged with one of the support members 56. It will be appreciated that due to manufacturing tolerances and in order to facilitate the installation of the core 60 between the wall panels 50 and 52, the length of the pallet 62 is necessarily somewhat less than the distance between the interior surfaces of the walls. The resulting gap is accommodated by positioning the deck 66 closely in engagement with the wall panel 50, whereupon a suitable entry in the enclosure 64 is aligned with the door opening 58 in the wall panel 50. This forms a small gap between the deck 66 and the wall panel 52. However, an end wall is provided at the end of the enclosure 64 remote from the door opening 58, whereby the gap is not visible from within the service core 60.

The next step in the method of dwelling construction comprises the installation of a pair of blank prestressed concrete pallets 90 between the load bearing wall panels 50 and 52. The pallets 90 are handled by means of cables 92 which are connected to eyes 93 in the pallets. The same procedure could be employed in handling service cores except that the enclosures of the service cores prevent access to the eyes of the pallets. Thus, the service cores must be handled by means of picking bars.

The blank pallets 90 are identical to the pallet 62 of the service core 60 in that they each comprise a deck, three beams depending from the deck, and tension members extending through the beams for prestressing the pallets. The pallets 90 are positioned between the wall panels 50 and 52 with their respective beams engaged with the support members 56 of the walls. The decks of the pallets 90 are therefore aligned with the decks 66 of the pallet 62, whereby the pallets 90 cooperate with the pallet 62 to form the floor of a dwelling unit.

As is best shown in FIG. 4, the installation of the pallets 90 is followed by the installation of a pair of shear wall panels 94 and 96. The wall panels 94 and 96 are formed from prestressed concrete, but differ from the load bearing wall panels 50 and S2 in that they are nominally four inches thick. The shear wall panels include window openings 98 and a door opening 100 and serve the dual functions of enclosing the ends of the dwelling unit and maintaining the load bearing walls erect.

The shear wall panels 94 and 96 are preferably connected to the load bearing wall panels 50 and 52 .by forming welds between suitable members which either comprise part of or are connected to the reinforcing structure of the wall panels. The load bearing wall panels and the shear wall panels may also be joined by other techniques of the type commonly employed in the construction industry to connect prestressed concrete structural members. The various prestressed concrete pallets which are employed in the practice of the invention may be connected to the load bearing wall panels by similar techniques, however, it has been found that it is often unnecessary to connect the pallets to the load bearing wall panels in any fashion.

Upon the installation of the shear wall panels 94 and 96, the lowermost apartment of the apartment building 48 is structurally complete. Thereafter, a service core 102 for a second dwelling unit is mounted on the load bearing wall panels 50 and 52. As is shown in FIG. 5, the service core 102 comprises a prestressed concrete pallet 104 and an enclosure. 106 formed on the pallet 104. The service core 102 further comprises complete mechanicals for the second apartment.

The pallet 104 of the service core 102 is illustrated in FIG. 9. The pallet 104 is similar to the pallet 62 in that it comprises a deck 108 and three beams 110 which depend from the deck. A plurality of tension members 112 extend through the beams 110 to prestress the beams and thereby adapt the beams for support at spaced points indicated by the arrows 114 to support a load on the deck 108.

The pallet 104 also differs from the pallet 62 in several important respects. First, the deck 108 is discontinued at spaced points 116 corresponding to the positioning of the load bearing wall panels 50 and 52. Second, the deck 108 and the beams 110 extend beyond one of the support points 114 to form a cantilever portion 118 of the pallet 108. At least some of the tension members 112 extend through plastic tubes 120 or are otherwise disengaged from the material of the beams 110 in the cantilever portion 118. This is necessary in order that the portion 118 can be supported in cantilever fashion.

The installation of the service core 102 is illustrated in FIG. 10. The picking bars 78 of the lifting and positioning apparatus shown in FIGS. 11 and 12 are engaged with the beams 110 of the pallet 104 at points adjacent the support points 114. At the end of the pallet 104 comprising the cantilever portion 118, a picking bar 78 may be positioned at a point located outside the positioning of the load bearing wall panel 50. Therefore, no problem is encountered in removing the picking bar after the service core 102 is installed. On the other hand, at the opposite end of the core 102, a picking bar 78 must be engaged with the core .102 at a point located within the positioning of the load bearing wall panel 52. To this end the service core 60 is provided with a picking bar slot 122.

The picking bar slot 122 comprises a reinforced portion of the false ceiling 76 of the core 60 which is purposely constructed to have sufficient strength to support the picking bar after it is disengaged from the harness 80. By way of example, picking bars suitable for use in the practice of the present invention typically weigh approximately 400 pounds. In such a casing the picking bar slot 122 is preferably formed from two by twelves and two by sixes so as to have sufficient strength to support the picking bar.

Referring again to FIG. 5, the enclosure 106 of the service core 102 is similar to, and may in fact be identical to, the enclosure64 of the service core 60. The enclosure 106 includes a dropped or false ceiling 124 preferably including a picking bar slot (not shown in FIG. 5) and also includes an end wall which is situated at the end of the enclosure 106 remote from the cantilever portion 118 of the prestressed concrete pallet 104. Like the enclosure 64, the enclosure 106 is preferably completely fabricated by mass production techniques prior to the installation of the service core 102.

The service core 102 is installed on the load bearing wall panels and 52 with each beam 110 of the pallet 104 engaged with one of the notches 54 of the load bearing wall panels. As has been indicated, the deck 108 of the pallet 104 is discontinued at points corresponding to the positioning of the load bearing wall panels. This permits the positioning of the upper surface of the deck 108 of the pallet 104 either in alignment with, above or below the upper surfaces of the load bearing wall panels 50 and 52, as desired.

Those skilled in the art will appreciate the fact that due to the nature of prestressed concrete pallets, the service core must be supported at points corresponding to the positioning of the load bearing wall panels 50 and 52. However, notwithstanding this requirement, it has been found that the service core may be provided with members extending into engagement with the pallet 104 of the service core 102. These members do not support the pallet in the true sense, but merely limit and control deflections of th pallet due to varying live loads thereon.

Following the installation of the service core 102, a pair of blank prestressed concrete pallets 128 are mounted on the load bearing wall panels 50 and 52. The pallets 128 are similar to the pallet 104 of the service core 102 in that they each comprise a deck, three beams depending from the deck, and tension members extending through the beams to prestress the pallet. Also, the decks of the pallets 128 are discontinued at points corresponding to the positioning of the load bearing walls panels. The pallets 128 are mounted on the load bearing walls panels with each beam of the pallet engaged with one of the notches 54 or 54 of the load bearing wall panels.

Referring now to FIG. 6, the next step in the method of dwelling construction comprises the positioning of a second set of load bearing wall panels 132 and 134 on the load bearing wall panels 50 and 52. The wall panels 132 and 134 are similar to the wall panels 50 and 52 in that they are constructed from prestressed concrete and in that they are nominally six inches thick. Also, the panels 130 and 132 are provided with notches 136 and 136' in their upper edges which are identical to the notches 54 and 54', and the wall panel 132 is provided with a door opening 138 which is similar to the door opening 58 in the load bearing wall panel 50.

Following the installation of the load bearing wall panels 132 and 134, a pair of shear wall panels 140 and 142 are mounted on the shear wall panels and 96, respectively. The wall panels 140 and 142 are formed from prestressed concrete and are nominally four inches thick. A plurality of window openings 144 and a door opening 146 are formed in the walls 140 and 142 at points corresponding to the window openings 98 and the door openings of the shear wall panels 94 and 96. The shear wall panels and 142 function to enclose the ends of the second apartment of the apartment building 48 and to maintain the load bearing wall panels 132 and 134 erect.

Upon completion of the foregoing steps, the second apartment of the apartment 48 is structurally completed. Thereafter the steps are repeated to form additional apartments. It will be understood that the additional apartments are positioned directly above the previously formed apartments and thereby function to increase the height of the apartment building 48. When all of the apartments comprising the apartment building 48 have been constructed, prestressed concrete pallets similar to the pallets 90 are positioned on the uppermost load bearing wall panels to form the roof of the apartment building. At this point the apartment building 48 is complete insofar as its structural components are concerned.

After the roof of the apartment building 48 has been installed, the interiors of the various apartments comprising the apartment building are finished. This involves filling the gaps between the wall panels and the pallets and between the wall panels per se with grouting, forming connections between the electrical, plumbing, and heating/air conditioning risers of the service cores of the apartments, constructing interior partitions to define bedrooms, closets, and the like, installing electrical wiring, including telephone and television wiring, installing doors and windows in the door and window openings of the wall panels, and the like. The interiors of the apartments are also finished. This involves installing carpeting, painting the interior surfaces of the load bearing wall panels, installing thermal insulation and paneling on the interior surfaces of the shear wall panels, and spraying the under surfaces of the pallets which do not comprise service cores with an asbestos material. The latter procedure has been found to be highly advantageous in that it provides the interiors of the apartments with a beamed ceiling effect which is highly pleasing in appearance, in that it provides sound deadening qualities, and in that it provides increased fire protection for the apartments. Upon completion of the finishing of the interiors of the apartments, the apartment building 48 is ready for occupancy. In actual practice it has been found that when the present invention is utilized, a three story apartment building can be completed and ready for occupancy within a few weeks following the start of construction. This extremely short completion time is made possible'because the service cores of the dwelling units of the apartment building are completely fabricated before construction at the dwelling site is commenced.

Referring now to P16. 7, there is shown a completed three story apartment building 148 constructed in accordance with the present invention. The building 148 includes a load bearing wall 150 which does not have pallet portions extending cantilever from it. In many building projects utilizing the present invention, such a wall will be a double loaded wall in that prestressed concrete pallets will be supported from both sides of the wall.

It is preferable that one apartment building such as the apartment building 148 be completed at least to the extent that the roof is installed prior to starting an adjacent apartment building. This is to facilitate the complete enclosure of the first apartment building and thereby eliminate any possibility of damage to the interior of the building due to weather. Then, after the first apartment building has been completed, the construction of the next adjacent apartment building is commenced.

The construction of the adjacent apartment building involves the erection of a load bearing wall 152 in spaced relation to the load bearing wall 150 of the first apartment building and then supporting prestressed concrete pallets between the load bearing walls 150 and 152. As has been described previously, at least one prestressed concrete pallet of each dwelling unit of the second apartment building will have a service core formed on it. in the typical apartment building, each dwelling unit will also include blank prestressed concrete pallets.

The only substantial difference between the construction of the first apartment building and the construction of the second apartment building is due to the fact that one of the load bearing walls of the second apartment building has previously been completed to its entire height. This causes the positioning of the beams of prestressed concrete pallets in the notches of the double loaded load bearing wall to be somewhat more involved than is the case when the adjacent load bearing wall panels have not been installed prior to the installation of the pallets. To this end, notches 154 are preferably formed at the lower edges of each panel of the double loaded load bearing wall to facilitate the installation of the beams of prestressed concrete pallets in the notches formed in the upper ends of the next adjacent panel of the load bearing wall.

The notches 154 are best shown in FIG. 7. Each notch 154 comprises an inwardly tapered portion formed in an upper load bearing wall panel 156 at a point aligned with a U-shaped notch 158 formed in a load bearing wall panel 160 positioned just below the panel 156. The notches 154 are equal in width to the notches 158, whereby the positioning of the beams of prestressed concrete pallets in the notches 158 is facilitated.

Although particular embodiments of the invention have been illustrated in the accompanying Drawings and described in the foregoing Detailed Description, it will be understood that the invention is not limited to the embodiments disclosed, but is capable of numerous rearrangements, modifications, and substitution of parts and elements without departing from the spirit of the invention.

What is claimed is:

l. The dwelling unit comprising:

an elongated prestressed concrete pallet including a substantially planar deck and prestressed concrete beams depending from the deck, said pallet being adapted for adequate support only at or near two longitudinally spaced apart optimum load support points on each beam.

an enclosure formed on the deck of the pallet and including walls extending longitudinally of the pallet and a predetermined distance above the deck; and

at least one picking bar slot formed in the upper portion of the enclosure and extending transversely of the pallet to accommodate a picking bar utilized for the positioning of a second, similar pallet above the enclosure closely adjacent the upper ends of the walls, said picking bar slot being substantially aligned with the picking bar and one of the optimum load support points of a beam depending from the second pallet to facilitate removal of the picking bar after said positioning of the second pallet.

2. The dwelling unit according to claim 1 wherein the enclosure includes a ceiling extending between the walls and wherein the picking bar slot includes a reinforced portion of the ceiling for supporting the picking bar following the positioning of the second pallet.

3. The dwelling unit according to claim 2 wherein the picking bar slot is located adjacent one end of the enclosure and further including a second picking bar slot located adjacent the opposite end of the enclosure.

4. A dwelling unit comprising a prestressed concrete pallet having prestressed concrete beams depending therefrom with optimum load support points, said pallet having an enclosure formed thereon and including walls extending vertically upwardly from the pallet and a ceiling extending horizontally between the upper portions of the walls, said ceiling including a reinforced picking bar slot located substantially below the upper ends of the walls for receiving a picking bar extending under an optimum load support point of a beam of a second similar prestressed concrete pallet positioned above the first pallet and the enclosure thereon, said picking bar slot being substantially aligned with the picking bar and the optimum load support point of the beam of the second pallet to facilitate manipulation of the second pallet by means of the picking bar extending under the support point thereof and to facilitate withdrawal of the picking bar from the picking bar slot after the second pallet has been positioned above the enclosure.

5. The dwelling unit according to claim 4 further including a pair of prestressed concrete walls positioned at the opposite ends of the enclosure, wherein the walls of the enclosure extend substantially an entire distance between the prestressed concrete walls, and wherein the picking bar slot extends the entire distance between the walls of the enclosure.

6. The dwelling unit according to claim 4 wherein the picking bar slot is positioned at one end of the enclosure and wherein the ceiling comprises a second picking bar slot at the opposite end of the enclosure.

7. A method of constructing a dwelling unit comprising:

forming an enclosure including spaced vertically extending walls and a reinforced picking bar slot extending transversely between the walls on a prestressed concrete pallet;

positioning the prestressed concrete pallet and the enclosure formed thereon between spaced load bearing walls; positioning a second prestressed concrete pallet of the type having prestressed concrete beams characterized by spaced apart optimum load support points over the spaced load bearing walls, first pallet and the enclosure formed thereon by means of a picking bar extending under the second pallet in substantial alignment both with one of the optimum load support points and with the picking bar slot of the enclosure;

moving the picking bar to rest the second pallet entirely on the spaced load bearing walls and to rest the picking bar within the picking bar slot, and

subsequently withdrawing the picking bar from the picking bar slot of the enclosure.

8. The method of constructing a dwelling unit according to claim 7 wherein at least the second prestressed concrete pallet comprises a deck, prestressed concrete beams depending from the deck, and tension members extending through the beams for prestressing the beams such that the beams are adapted for adequate support only at spaced optimum load bearing points to support a load on the deck and wherein the positioning step is carried out by supporting the second the walls of the enclosure at the opposite ends thereof, wherein the positioning step is further characterized by supporting the pallet at spaced points corresponding to the positioning of both of the picking bar slots, and including the subsequent step of withdrawing both picking bars from the picking bar slots. 

1. The dwelling unit comprising: an elongated prestressed concrete pallet including a substantially planar deck and prestressed concrete beams depending from the deck, said pallet being adapted for adequate support only at or near two longitudinally spaced apart optimum load support points on each beam, an enclosure formed on the deck of the pallet and including walls extending longitudinally of the pallet and a predetermined distance above the deck; and at least one picking bar slot formed in the upper portion of the enclosure and extending transversely of the pallet to accommodate a picking bar utilized for the positioning of a second, similar pallet above the enclosure closely adjacent the upper ends of the walls, said picking bar slot being substantially aligned with the picking bar and one of the optimum load support points of a beam depending from the second pallet to facilitate removal of the picking bar after said positioning of the second pallet.
 2. The dwelling unit according to claim 1 wherein the enclosure includes a ceiling extending between the walls and wherein the picking bar slot includes a reinforced portion of the ceiling for supporting the picking bar following the positioning of the second pallet.
 3. The dwelling unit according to claim 2 wherein the picking bar slot is located adjacent one end of the enclosure and further including a second picking bar slot located adjacent the opposite end of the enclosure.
 4. A dwelling unit comprising a prestressed concrete pallet having prestressed concrete beams depending therefrom with optimum load support points, said pallet having an enclosure formed thereon and including walls extending vertically upwardly from the pallet and a ceiling extending horizontally between the upper portions of the walls, said ceiling including a reinforced picking bar slot located substantially below the upper ends of the walls for receiving a picking bar extending under an optimum load support point of a beam of a second similar prestressed concrete pallet positioned above the fiRst pallet and the enclosure thereon, said picking bar slot being substantially aligned with the picking bar and the optimum load support point of the beam of the second pallet to facilitate manipulation of the second pallet by means of the picking bar extending under the support point thereof and to facilitate withdrawal of the picking bar from the picking bar slot after the second pallet has been positioned above the enclosure.
 5. The dwelling unit according to claim 4 further including a pair of prestressed concrete walls positioned at the opposite ends of the enclosure, wherein the walls of the enclosure extend substantially an entire distance between the prestressed concrete walls, and wherein the picking bar slot extends the entire distance between the walls of the enclosure.
 6. The dwelling unit according to claim 4 wherein the picking bar slot is positioned at one end of the enclosure and wherein the ceiling comprises a second picking bar slot at the opposite end of the enclosure.
 7. A method of constructing a dwelling unit comprising: forming an enclosure including spaced vertically extending walls and a reinforced picking bar slot extending transversely between the walls on a prestressed concrete pallet; positioning the prestressed concrete pallet and the enclosure formed thereon between spaced load bearing walls; positioning a second prestressed concrete pallet of the type having prestressed concrete beams characterized by spaced apart optimum load support points over the spaced load bearing walls, first pallet and the enclosure formed thereon by means of a picking bar extending under the second pallet in substantial alignment both with one of the optimum load support points and with the picking bar slot of the enclosure; moving the picking bar to rest the second pallet entirely on the spaced load bearing walls and to rest the picking bar within the picking bar slot, and subsequently withdrawing the picking bar from the picking bar slot of the enclosure.
 8. The method of constructing a dwelling unit according to claim 7 wherein at least the second prestressed concrete pallet comprises a deck, prestressed concrete beams depending from the deck, and tension members extending through the beams for prestressing the beams such that the beams are adapted for adequate support only at spaced optimum load bearing points to support a load on the deck and wherein the positioning step is carried out by supporting the second pallet by means of picking bars extending under the beams at points adjacent to the optimum load bearing support points thereof.
 9. The method of constructing a building according to claim 8 wherein the step of forming an enclosure on the pallet is further characterized by forming a pair of picking bar slots each extending transversely between the walls of the enclosure at the opposite ends thereof, wherein the positioning step is further characterized by supporting the pallet at spaced points corresponding to the positioning of both of the picking bar slots, and including the subsequent step of withdrawing both picking bars from the picking bar slots. 